Structural glycoprotein LmAbd-9 is required for the formation of the endocuticle during locust molting

Abstract

Insect cuticle is a composite made of chitin filaments embedded in a proteinaceous matrix, consisting mainly of structural cuticular proteins. In the present study, an endocuticle structural glycoprotein gene, LmAbd-9, was characterized based on the Locusta migratoria transcriptome. LmAbd-9 encodes a glycoprotein with a chitin binding domain 4, belonging to RR-1 subclass of the CPR family, which has two potential O-linked glycosylation sites (S115 and T137) at which glycosylation modification may occur. LmAbd-9 was highly expressed in the integument and showed periodic expression during molting. The expression levels of LmAbd-9 were significantly down-regulated after injection with 20-hydroxyecdysone (20E) for 6, 12, and 24 h, whereas it was upregulated after double-stranded RNA-mediated RNA interference of the 20E receptor gene LmEcR and LmFTZ-F1beta at day 2 of fifth instar nymphs for 48 h. After injection of dsLmAbd-9 on day 2 of fifth instar nymphs, the insects could normally molt to adults and showed no macroscopic phenotype; however, the cuticle of the adults was thinner, and there were significantly fewer endocuticular lamellae than in the control. Thus, LmAbd-9 that negatively regulated by the 20E signaling pathway was involved in the formation of the endocuticle in L. migratoria.